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Biomedical Devices: Design, Prototyping, and Manufacturing Vital Source e-bog
Tugrul ?zel, Paolo Jorge B?rtolo, Elisabetta Ceretti, Joaquim De Ciurana Gay og Ciro Angel Rodriguez
(2016)
John Wiley & Sons
1.189,00 kr.
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Biomedical Devices
Design, Prototyping, and Manufacturing
Tugrul Özel, Paolo Jorge Bártolo, Elisabetta Ceretti, Joaquim De Ciurana Gay, Ciro Angel Rodriguez og Jorge Vicente Lopes Da Silva
(2016)
Sprog: Engelsk
John Wiley & Sons, Incorporated
1.218,00 kr.
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Detaljer om varen
- 1. Udgave
- Vital Source searchable e-book (Reflowable pages)
- Udgiver: John Wiley & Sons (September 2016)
- Forfattere: Tugrul ?zel, Paolo Jorge B?rtolo, Elisabetta Ceretti, Joaquim De Ciurana Gay og Ciro Angel Rodriguez
- ISBN: 9781119267041
Biomedical Devices: Design, Prototyping, and Manufacturing features fundamental discussions of all facets of materials processing and manufacturing processes across a wide range of medical devices and artificial tissues. Represents the first compilation of information on the design, prototyping, and manufacture of medical devices into one volume Offers in-depth coverage of medical devices, beginning with an introductory overview through to the design, manufacture, and applications Features examples of a variety of medical applications of devices, including biopsy micro forceps, micro-needle arrays, wrist implants, spinal spacers, and fixtures Provides students, doctors, scientists, and technicians interested in the development and applications of medical devices the ideal reference source
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Bookshelf online: 5 år fra købsdato.
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Detaljer om varen
- Hardback: 208 sider
- Udgiver: John Wiley & Sons, Incorporated (Oktober 2016)
- Forfattere: Tugrul Özel, Paolo Jorge Bártolo, Elisabetta Ceretti, Joaquim De Ciurana Gay, Ciro Angel Rodriguez og Jorge Vicente Lopes Da Silva
- ISBN: 9781118478929
Biomedical Devices: Design, Prototyping, and Manufacturing features fundamental discussions of all facets of materials processing and manufacturing processes across a wide range of medical devices and artificial tissues.
- Represents the first compilation of information on the design, prototyping, and manufacture of medical devices into one volume
- Offers in-depth coverage of medical devices, beginning with an introductory overview through to the design, manufacture, and applications
- Features examples of a variety of medical applications of devices, including biopsy micro forceps, micro-needle arrays, wrist implants, spinal spacers, and fixtures
- Provides students, doctors, scientists, and technicians interested in the development and applications of medical devices the ideal reference source
CONTRIBUTORS ix FOREWORD xi 1 Overview 1 Joaquim De Ciurana Gay, Tu¢grul Özel, and Lidia Serenó
1.1 Introduction, 1
1.2 Need for Medical Devices, 7
1.3 Technology Contribution to Medical Devices, 12
1.3.1 Subtractive Technologies, 13
1.3.2 Net-Shape Technologies, 13
1.3.3 Additive Technologies, 14
1.4 Challenges in the Medical Device Industry, 16 References, 17 2 Design Issues in Medical Devices 23 Inés Ferrer, Jordi Grabalosa, Alex Elias-Zuñiga, and Ciro Angel Rodriguez
2.1 Medical Device Development (MDD), 23
2.1.1 Biomedical Product Life Cycle, 24
2.1.2 Medical Device Development Process, 27
2.1.3 Medical Devices'' Design Process, 28
2.2 Case Study, 30
2.2.1 Scapholunate Interosseous Ligament, 30
2.2.2 Conceptual Design, 32
2.2.3 Embodiment Design, 35
2.2.4 Detailed Design, 36
2.2.5 Manufacturing a Prototype, 36
2.2.6 Tracheal Stent, 38
2.2.7 Conceptual Design, 39
2.2.8 Embodiment Design and Detail Design, 43
2.2.9 Manufacturing a Prototype, 45
2.3 Conclusions, 45 References, 46 3 Forming Applications 49 Karen Baylón, Elisabetta Ceretti, Claudio Giardini, and Maria Luisa Garcia-Romeu
3.1 Forming, 49
3.2 Typical Process Parameters, 52
3.2.1 Temperature, 52
3.2.2 Flow Stress, 53
3.2.3 Strain, 53
3.2.4 Strain Rate, 54
3.2.5 Tribology and Micro-Tribology, 54
3.3 Manufacturing Process Chain, 55
3.3.1 Manufacture of Alloys and Raw Materials, 55
3.3.2 Forming, 56
3.3.3 Machining and Finishing, 56
3.3.4 Coating, 56
3.3.5 Packaging and Sterilization, 56
3.4 Implantable Devices, 56
3.5 Bone Implants, 57
3.5.1 External Fracture Fixation, 57
3.5.2 Artificial Joint Replacement, 58
3.5.3 Spinal Implants, 68
3.5.4 Craniomandibular Implants, 68
3.5.5 Dental Implants, 71
3.6 Other Biomedical Applications, 73 References, 74 4 Laser Processing Applications 79 Tu¢grul Özel, Joaquim De Ciurana Gay, Daniel Teixidor Ezpeleta, and Luis Criales
4.1 Introduction, 79
4.2 Microscale Medical Device Applications, 80
4.3 Processing Methods for Medical Device Fabrication, 82
4.4 Biomaterials Used in Medical Devices, 86
4.5 Microjoining of Similar and Dissimilar Materials, 86
4.6 Laser Micromachining for Microfluidics, 89
4.7 Laser Micromachining for Metallic Coronary Stents, 92 References, 94 5 Machining Applications 99 Tu¢grul Özel, Elisabetta Ceretti, Thanongsak Thepsonthi, and Aldo Attanasio
5.1 Introduction, 99
5.2 Machinability of Biocompatible Metal Alloys, 102
5.3 Surfaces Engineering of Metal Implants, 104
5.4 Wear and Failure of Metal Implants, 105
5.5 Micromilling-Based Fabrication of Metallic Microchannels for Medical Devices, 106
5.6 Machining-Based Fabrication of Polymeric Microneedle Devices, 109
5.7 A Case Study: Milling-Based Fabrication of Spinal Spacer Cage, 110
5.7.1 Degenerative Disc Disease, 112
5.7.2 Intervertebral Spinal Spacers, 113
5.7.3 Prototype Fabrication Using Milling Process, 115 References, 118 6 Inkjet- and Extrusion-Based Technologies 121 Karla Monroy, Lidia Serenó, Joaquim De Ciurana Gay, Paulo Jorge Bártolo, Jorge Vicente Lopes Da Silva, and Marco Domingos
6.1 Introduction, 121
6.2 Inkjet Technology, 124
6.2.1 Inkjet 3D Printing Technology, 125
6.2.2 Materials in Inkjet-Based Technologies, 128
6.2.3 Inkjet Printing Methods, 130
6.2.4 Inkjet Printing Systems: Processes and Machines, 131
6.2.5 Medical Applications of Inkjet Technology, 135
6.3 Material Extrusion Technology, 139
6.3.1 Material Extrusion--General Principles, 139
6.3.2 Extrusion-Based Technologies, 144
6.3.3 Medical Applications of Extrusion-Based Systems, 153 References, 156 7 Certification for Medical Devices 161 Corrado Paganelli, Marino Bindi, Laura Laffranchi, Domenico Dalessandri, Stefano Salgarello, Antonio Fiorentino, Giuseppe Vatri, and Arne Hensten
7.1 Introduction, 161
7.2 The Medical Devices Approval, Registration, or Certification, 163
7.3 The Premarket Key Activity: The Demonstration of the Conformity to the Safety and Performance Requirements, 163
7.4 The Postmarket Key Activity: The Surveillance, 165
7.5 The Role of the Quality Management Systems, 165
7.6 The Verification and the Auditing, 166
7.7 The Role of the Standards, 167
7.8 Examples of Approbation/Certification Roads in Some World Areas, 168
7.8.1 European Union, 168
7.8.2 United States of America, 168
7.8.3 Japan, 168
7.8.4 Australia, 169
7.8.5 Brazil, 169
7.8.6 Canada, 169
7.9 In-Depth Studies, 170
7.9.1 Essentials of Safety and Performance Principles, 170
7.9.2 Essentials of the Risk Management, 174
7.9.3 Essentials of the Nonclinical Evaluation, 175
7.9.4 Essentials of the Clinical Evaluation, 178 References, 181 INDEX 183
1.1 Introduction, 1
1.2 Need for Medical Devices, 7
1.3 Technology Contribution to Medical Devices, 12
1.3.1 Subtractive Technologies, 13
1.3.2 Net-Shape Technologies, 13
1.3.3 Additive Technologies, 14
1.4 Challenges in the Medical Device Industry, 16 References, 17 2 Design Issues in Medical Devices 23 Inés Ferrer, Jordi Grabalosa, Alex Elias-Zuñiga, and Ciro Angel Rodriguez
2.1 Medical Device Development (MDD), 23
2.1.1 Biomedical Product Life Cycle, 24
2.1.2 Medical Device Development Process, 27
2.1.3 Medical Devices'' Design Process, 28
2.2 Case Study, 30
2.2.1 Scapholunate Interosseous Ligament, 30
2.2.2 Conceptual Design, 32
2.2.3 Embodiment Design, 35
2.2.4 Detailed Design, 36
2.2.5 Manufacturing a Prototype, 36
2.2.6 Tracheal Stent, 38
2.2.7 Conceptual Design, 39
2.2.8 Embodiment Design and Detail Design, 43
2.2.9 Manufacturing a Prototype, 45
2.3 Conclusions, 45 References, 46 3 Forming Applications 49 Karen Baylón, Elisabetta Ceretti, Claudio Giardini, and Maria Luisa Garcia-Romeu
3.1 Forming, 49
3.2 Typical Process Parameters, 52
3.2.1 Temperature, 52
3.2.2 Flow Stress, 53
3.2.3 Strain, 53
3.2.4 Strain Rate, 54
3.2.5 Tribology and Micro-Tribology, 54
3.3 Manufacturing Process Chain, 55
3.3.1 Manufacture of Alloys and Raw Materials, 55
3.3.2 Forming, 56
3.3.3 Machining and Finishing, 56
3.3.4 Coating, 56
3.3.5 Packaging and Sterilization, 56
3.4 Implantable Devices, 56
3.5 Bone Implants, 57
3.5.1 External Fracture Fixation, 57
3.5.2 Artificial Joint Replacement, 58
3.5.3 Spinal Implants, 68
3.5.4 Craniomandibular Implants, 68
3.5.5 Dental Implants, 71
3.6 Other Biomedical Applications, 73 References, 74 4 Laser Processing Applications 79 Tu¢grul Özel, Joaquim De Ciurana Gay, Daniel Teixidor Ezpeleta, and Luis Criales
4.1 Introduction, 79
4.2 Microscale Medical Device Applications, 80
4.3 Processing Methods for Medical Device Fabrication, 82
4.4 Biomaterials Used in Medical Devices, 86
4.5 Microjoining of Similar and Dissimilar Materials, 86
4.6 Laser Micromachining for Microfluidics, 89
4.7 Laser Micromachining for Metallic Coronary Stents, 92 References, 94 5 Machining Applications 99 Tu¢grul Özel, Elisabetta Ceretti, Thanongsak Thepsonthi, and Aldo Attanasio
5.1 Introduction, 99
5.2 Machinability of Biocompatible Metal Alloys, 102
5.3 Surfaces Engineering of Metal Implants, 104
5.4 Wear and Failure of Metal Implants, 105
5.5 Micromilling-Based Fabrication of Metallic Microchannels for Medical Devices, 106
5.6 Machining-Based Fabrication of Polymeric Microneedle Devices, 109
5.7 A Case Study: Milling-Based Fabrication of Spinal Spacer Cage, 110
5.7.1 Degenerative Disc Disease, 112
5.7.2 Intervertebral Spinal Spacers, 113
5.7.3 Prototype Fabrication Using Milling Process, 115 References, 118 6 Inkjet- and Extrusion-Based Technologies 121 Karla Monroy, Lidia Serenó, Joaquim De Ciurana Gay, Paulo Jorge Bártolo, Jorge Vicente Lopes Da Silva, and Marco Domingos
6.1 Introduction, 121
6.2 Inkjet Technology, 124
6.2.1 Inkjet 3D Printing Technology, 125
6.2.2 Materials in Inkjet-Based Technologies, 128
6.2.3 Inkjet Printing Methods, 130
6.2.4 Inkjet Printing Systems: Processes and Machines, 131
6.2.5 Medical Applications of Inkjet Technology, 135
6.3 Material Extrusion Technology, 139
6.3.1 Material Extrusion--General Principles, 139
6.3.2 Extrusion-Based Technologies, 144
6.3.3 Medical Applications of Extrusion-Based Systems, 153 References, 156 7 Certification for Medical Devices 161 Corrado Paganelli, Marino Bindi, Laura Laffranchi, Domenico Dalessandri, Stefano Salgarello, Antonio Fiorentino, Giuseppe Vatri, and Arne Hensten
7.1 Introduction, 161
7.2 The Medical Devices Approval, Registration, or Certification, 163
7.3 The Premarket Key Activity: The Demonstration of the Conformity to the Safety and Performance Requirements, 163
7.4 The Postmarket Key Activity: The Surveillance, 165
7.5 The Role of the Quality Management Systems, 165
7.6 The Verification and the Auditing, 166
7.7 The Role of the Standards, 167
7.8 Examples of Approbation/Certification Roads in Some World Areas, 168
7.8.1 European Union, 168
7.8.2 United States of America, 168
7.8.3 Japan, 168
7.8.4 Australia, 169
7.8.5 Brazil, 169
7.8.6 Canada, 169
7.9 In-Depth Studies, 170
7.9.1 Essentials of Safety and Performance Principles, 170
7.9.2 Essentials of the Risk Management, 174
7.9.3 Essentials of the Nonclinical Evaluation, 175
7.9.4 Essentials of the Clinical Evaluation, 178 References, 181 INDEX 183
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